KR20000045631A - Method for converting signal point in mobile communication switching system - Google Patents

Abstract

PURPOSE: A method for converting a signal point in the mobile communication switching system is provided to achieve mutual inter-working by according the signal points of each different length, in case of the inter-working of an ITU-T standard No.7 network and an CHINA No.7 network. CONSTITUTION: If an 24 bits signal point is inputted(ST101), the 24 bits signal point is divided by a hashing mode value and an associated hashing value is extracted(ST102). It is confirmed whether the extracted hashing value exists in a hashing table(ST103). If the extracted hashing value exists in the hashing table, a corresponding index is extracted and a SPC-index having an associated signal point is produced in a signal point link list having the identical hashing value using the extracted index(ST104). The associated signal point is extracted, contrasting the produced SPC-index in a SPC-index table(ST105).

Description

Signal point conversion method of mobile communication exchange

The present invention relates to signal point conversion in No.-7 signaling mobile communication exchange, and in particular, signals of different lengths when interworking with ITU-T standard No.7 network and CHINA No.7 network. The present invention relates to a method of converting signal points in a mobile communication switch that enables mutual interworking by matching points.

In the above, the signal point refers to a code for identifying the corresponding point in the No.7 signal network, and the No.7 signaling method is one of internationally standardized common line signaling methods, which can transmit information without duplication in order of messages. In this way, it is a signaling method that separates itself and the other party into unique recognition symbols of internationalized format called signal points. In addition, the common line signaling method distinguishes a passage through which data is transmitted and a passage of a signal used for transmitting the data, and thus a signal message refers to a signal processing scheme using one common signal passage. In addition, there is a term called a routing label below, which is used to process the No.7 message routing among No.7 signal data, which is roughly divided into a local signal point code (OPC) and another station signal point code (DPC). The local station signal point code refers to its own signal point in the network configuration (software or operator's perspective), and the other station signal point code refers to the signal point recognized as another station in the network configuration (software or operator's perspective).

Meanwhile, according to the international standard for ITU-T No. 7, each signal point has a 2-bit network indicator and a unique 14-bit signal point code. The network identification code is a code used to identify the network in No. 7 signal network and can be divided into international network and domestic network.

However, in China No.7 network, each signal point has different lengths of 14 bit and 24 bit according to network identification code.

In other words, China No.7 signaling uses NI = 2 and NI = 3 as the signal points, which have different lengths.

Accordingly, to distinguish the two signal point types, a signal point having a length of 14 bits is classified into an ITU-T signal point and a signal point having a length of 24 bits as a difference or signal point.

Therefore, ITU-T No.7 signaling exchanger cannot be applied to China No.7 signaling system due to the difference of signal points as above. Similarly, China No.7 signaling exchanger is applied to ITU-T No.7 signaling network. Can not.

Accordingly, the present invention has been proposed to solve various problems that occur during the interworking between the ITU-T No. 7 exchange and the No. 7 exchange period due to the difference in the conventional signal point as described above.

An object of the present invention is a method of converting signal points in a mobile communication switch that enables mutual interworking by matching signal points of different lengths when interworking with an ITU-T standard No. 7 network and a China (CHINA) No. 7 network. To provide.

The present invention (method) for achieving the above object,

A first step of extracting a hashing value by dividing an input signal point by a hashing mode value when the signal point is input;

A second step of confirming whether the extracted hashing value exists in a hashing table;

Extracting a corresponding index if the extracted hashing value exists in a hashing table, and calculating an SPC-index having a corresponding signal point in a signal point link list having the same hashing value using the extracted index;

And a fourth step of extracting the corresponding signal point by comparing the calculated SPC index to the SPC index table.

1 is a block diagram of a No. 7 protocol processor in a general mobile communication switch,

2 is a general No. 7 protocol structure diagram;

3 is a flowchart showing a signal point conversion method in a mobile communication switch according to the present invention;

4 is a conceptual diagram for explaining a method of calculating an ITU signal point index from a CHINA signal point in the present invention.

<Explanation of symbols for main parts of drawing>

10: Number 7 access switching subsystem

20: signal message processing unit

30: signal terminal group

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention according to the technical spirit as described above in detail.

1 is a block diagram of a No. 7 protocol processor in a general mobile communication switch.

Here, reference numeral 10 denotes a number 7 access switching subsystem (ASS-7) having a message transfer and signal connection control function, and 20 denotes message processing and data of the message transfer unit and the signal connection control unit. A processor in charge of the function is a signal message processing unit consisting of a plurality of signaling message handling (SMHP: Signaling Message Handling Process), 30 is a signal terminal group (STG: Signaling Terminal) consisting of a plurality of signaling terminals (STG).

Here, the signal terminal group 30 further includes a signaling terminal management processor assembly (SMPA) as a signal terminal management processor and a signaling terminal management logic board assembly (SMLA) as a signal terminal management logic board assembly.

2 is a schematic diagram of a general No. 7 protocol, which includes an exchanger 40 comprising a user No. 7 and a message processor 42, and an ITU-T using the ITU-T No. 7 standard method. GW 50 and China-GW 50 using China No. 7 signaling.

In this case, the switch 40 is a signal message processing function, a signal network management function for recovery and processing of a failure on a signal message processing path, a switch network data service, and a mobile call for connection of non-line related information between network management centers. It is responsible for service and routing processing, transaction function for AP, visitor subscriber processing, non-line transaction processing between mobile switch and external DB, and inter-station relay call processing.

Referring to the No.7 protocol processor of the mobile communication switch as described above, the signal point conversion method of the present invention will be described as follows.

First, when an arbitrary signal point (14 bits or 24 bits) is input in step ST101 of FIG. 3, an index of the corresponding signal point is calculated. Hereinafter, each signal point conversion process for each input signal point is separated and described. do.

First, when the signal point input in step ST101 is 24 bits, and the signal point is changed to a 14 bit signal point, the corresponding hashing value is calculated by dividing the 24-bit signal point input in step ST102 by a hashing mode value (Hashing_Mode_Value). The corresponding hash point is found in the hashing table as shown in FIG. Here, the hashing table indicates the first position of the link list construction of the signal point by the hashing value. Next, it is checked whether the hashing value extracted in step ST103 exists in the hashing table, and if it exists in the hashing table, SPC_Index with the corresponding signal point is calculated from the signal link list as shown in Fig. 4B (ST104). Here, the link list of signal points by hashing values is a collection of signal points having the same hashing value in the form of a single linked list. The first value of the link list of the signal point is the smallest value, and the hashing table points to the index value of the first value of this corresponding list. In addition, the link list of the signal point by the hashing value has the index value of the signal point index table as shown in FIG. Since the signal point index table includes the 14-bit signal point and the 24-bit signal point type of the corresponding index, the 14-bit signal point corresponding to the 24-bit signal point input in step ST105 is calculated. This enables interworking with ITU-T No. 7 networks with 14-bit signal points and Difference No. 7 networks with 24-bit signal points.

Next, when a signal point input in step ST101 is 14 bits and a signal point of 24 bits corresponding thereto is obtained, the hashing value is calculated by dividing the input value by an appropriate hashing-mode-value as described above. The calculated hashing value is used to find the corresponding point of the hashing table. The corresponding point of the hashing table points to the first index of the link list of the signal point by the hashing value of the signal points having the same hashing value. The link list of signal points according to the hashing value is a collection of signal points having the same hashing value in the form of a single link list and configured in an ascending order. The first value in the list is the smallest value, and the hashing table points to the index value of the first value in the list. The link list of the signal point by the hashing value has the index value of the signal point table, and since the signal point index table includes the 14-bit signal point and the 24-bit signal point type of the corresponding index, the input 14-bit signal is used using this. A signal point of 24 bits for a point can be extracted.

As described above, the present invention has the advantage that effective network management and message processing can be performed even in a difference where a 24-bit signal point and a 14-bit signal point are mixed.

In addition, since signal point conversion is possible by the signal point extraction method according to the present invention, it is possible to interwork with an ITU-T No. 7 network and a No. 7 network having different lengths.

Claims (1)

In the mobile communication switch using No.7 signaling system, A first step of extracting a hashing value by dividing an input signal point by a hashing mode value when the signal point is input; A second step of confirming whether the extracted hashing value exists in a hashing table; Extracting a corresponding index if the extracted hashing value exists in a hashing table, and calculating an SPC-index having the corresponding signal point in a signal point link list having the same hashing value using the extracted index; And a fourth step of extracting the corresponding signal point by comparing the calculated SPC-index to the SPC-index table.